Apparatuses associated with cutting elements are disclosed herein. In embodiments, a blade pin may include a head and a main body. The main body may extend from the head of the blade pin, and may include a cavity. The main body may further include a first aperture, wherein the first aperture is connected to the cavity. The main body may further include a second aperture formed in a sidewall, wherein the sidewall extends from the first end to the second end of the main body, and wherein the second aperture is connected to the cavity. The blade pin may include a valve, wherein the valve allows passage of a lubricant into the cavity through the first aperture and prevents passage of the lubricant out of the cavity through the first aperture. Other embodiments may be described and/or claimed.

A portable electric rotary slicer, which may have a handle, a blade holder configured to hold a blade assembly, and a pusher. The blade assembly may couple to the blade holder by a ring gear configured to fit concentrically around the blade assembly, allowing the rotary slicer to be operated at a high torque with relatively little electrical power being supplied. The rotary slicer may have a stand, a safety cylinder disposed around the blade assembly and configured to protect the user's fingers when pushing material into the blade assembly, and a divider disposed within the safety cylinder. To operate the device, a user may insert a blade assembly into the blade holder, place material directly above the blade assembly and under the pusher, activate the switch of the rotary slicer, and press downward with the pusher to force the material into the spinning blade of the blade assembly.

A food processor includes a bowl with a removable lid. Food items are advanced into the bowl through a feed tube formed in the lid where they are cut by a blade assembly. A rotating disk is adjustable relative to the blade assembly to vary the thickness of the food items cut by the blade assembly. A user-operated pin is positioned below the rotating disk and is moveable between a first position in which the rotating disk is prevented from moving upwardly and downwardly, and a second position in which the rotating disk is permitted to move upwardly and downwardly.

A food processor includes a bowl with a removable lid. Food items are advanced into the bowl through a feed tube formed in the lid where they are cut by a blade assembly. A rotating disk is adjustable relative to the blade assembly to vary the thickness of the food items cut by the blade assembly. A user-operated pin is positioned below the rotating disk and is moveable between a first position in which the rotating disk is prevented from moving upwardly and downwardly, and a second position in which the rotating disk is permitted to move upwardly and downwardly.

The present invention relates to a method for cutting a food product, in particular a food product strand, into portions, in particular into strips or cubes, comprising the following method steps: a) The food product is advanced to a cutting device (2) by means of an advancing device (12). b) Successive portions are cut off from the food product from an end of the food product which faces the cutting device (2) by means of at least one cutting element (3), wherein the cutting element (3) is guided by means of a disc-shaped cutting element carrier (4), on which the cutting element (3) is arranged, wherein the cutting element carrier (4) is rotated about a drive axis (10) which is oriented at least substantially parallel to an advancing direction (7) of the advancing device (12). c) During one-time guiding of the cutting element (3) past the end of the food product, a multiplicity of strip-shaped portions are produced. In order to provide a method, by means of which it is possible to produce cube-shaped portions in a particularly rapid manner, according to the invention the portions which are being produced are cut to size by means of at least one length cutting device (5) after the cutting by means of the at least one cutting element (3). The present invention further relates to a corresponding device.

The present invention relates to a method for cutting a food product, in particular a food product strand, into portions, in particular into strips or cubes, comprising the following method steps: a) The food product is advanced to a cutting device (2) by means of an advancing device (12). b) Successive portions are cut off from the food product from an end of the food product which faces the cutting device (2) by means of at least one cutting element (3), wherein the cutting element (3) is guided by means of a disc-shaped cutting element carrier (4), on which the cutting element (3) is arranged, wherein the cutting element carrier (4) is rotated about a drive axis (10) which is oriented at least substantially parallel to an advancing direction (7) of the advancing device (12). c) During one-time guiding of the cutting element (3) past the end of the food product, a multiplicity of strip-shaped portions are produced. In order to provide a method, by means of which it is possible to produce cube-shaped portions in a particularly rapid manner, according to the invention the portions which are being produced are cut to size by means of at least one length cutting device (5) after the cutting by means of the at least one cutting element (3). The present invention further relates to a corresponding device.

A food processing device includes a dicing kit adapted to be received in a bowl which is coupled to a base. The dicing kit includes a dicing grid disposed within a frame which is coupled to a cover member having a rotating slicing tool disposed there between. The slicing tool is positively captured between the dicing grid frame and the cover member and is further adapted to rotate as powered by a motor disposed in the base portion of the food processor.

A food processing device includes a dicing kit adapted to be received in a bowl which is coupled to a base. The dicing kit includes a dicing grid disposed within a frame which is coupled to a cover member having a rotating slicing tool disposed there between. The slicing tool is positively captured between the dicing grid frame and the cover member and is further adapted to rotate as powered by a motor disposed in the base portion of the food processor.

A dicer is provided with a power output shaft in the container, and deceleration components and cutter disks on the output shaft. The cutter disks comprises a slicing cutter disk and a dicing cutter disk, a block in the container cover, a handle in the slicing cutter disk, and through-holes in the dicing cutter disk. The dicer is able to cut food into pieces with the same shape and size, and the dicing effectiveness is substantially perfect. The deceleration components have simple structure, which occupy small space and are convenient for household use. The handle is provided on the slicing cutter disk to facilitate detachment of the slice cutter disk for cleaning, and a through-hole is defined in the dicing cutter disk to facilitate detachment of the cutter disk for cleaning. The block makes the slicing cutter disk stable when rotating, to facilitate dicing.

A dicer is provided with a power output shaft in the container, and deceleration components and cutter disks on the output shaft. The cutter disks comprises a slicing cutter disk and a dicing cutter disk, a block in the container cover, a handle in the slicing cutter disk, and through-holes in the dicing cutter disk. The dicer is able to cut food into pieces with the same shape and size, and the dicing effectiveness is substantially perfect. The deceleration components have simple structure, which occupy small space and are convenient for household use. The handle is provided on the slicing cutter disk to facilitate detachment of the slice cutter disk for cleaning, and a through-hole is defined in the dicing cutter disk to facilitate detachment of the cutter disk for cleaning. The block makes the slicing cutter disk stable when rotating, to facilitate dicing.